1) interface cavity
界面孔
1.
Complex function and Green s function are employed to solve the scattering problem of SH-waves by an interface cavity with arbitrary shape.
然后,按契合方式构造出界面任意形状孔洞对SH波的散射模型,利用所得Green函数按界面位移连续条件建立求解问题的定解积分方程组,求解界面孔附近的动应力集中系数。
2) interface microvoid
界面微孔
1.
The results showed that:(1) PVDF /PVA were incompatible blends,new interface microvoid structure was produced as a result of phase separation in PVDF/PVA;(2) With PVA content increased,the water flux of PVDF/PVA blend membrane increased due proba.
结果表明,PVDF/PVA为不相容体系,在成膜过程中产生界面微孔;随PVA含量增加,PVDF/PVA共混膜水通量先增大后减小,在PVDF/PVA为8/2时呈较大值,截留率变化趋势则相反;PVA的存在明显改善了PVDF/PVA共混膜的亲水性,表现为随其含量增加共混膜接触角明显减小;随固含量增加,膜厚度增加,孔隙率降低,水通量减小,截留率升高;添加剂PEG600浓度为6%时,孔隙率高,水通量大,但截留率低;凝固浴种类直接影响膜结构及性能;热处理可完善膜结构从而获得性能更优的膜。
3) Porous interfacial layer
多孔界面
5) interface micro-void
相界面孔
1.
A membrane with interface micro-voids was prepared by melt spinning-drawing process and its structure was investigated thoroughly.
针对以聚丙烯腈为分散相、以高形变性和高回复性的热塑性聚氨酯为基质相的共混物,讨论其相容性、可纺性和拉伸致孔性,并在测试分析的基础上,深入研究了经熔融纺丝—拉伸制成的具有相界面孔分离膜的共混结构。
6) pore interface
孔界面
1.
Experimental study on micropore interface fractal structure of silica fume cement paste;
硅粉水泥石中微孔界面分形结构实验研究
补充资料:第二孔(继发孔)型缺损
第二孔(继发孔)型缺损
ostium secondary defect
是心房间隔在形成上发生障碍,一般缺损较大,多在卵圆孔附近称第二孔(继发孔)型缺损。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条